| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 324258000 | Fixed coil magnetometer | 29 |
| 20090091319 | Device to test the good working order of a magnetic field generator - A device to test the good working order of a magnetic field generator, and namely a demining coil, such device comprising at least one evaluation means for the magnetic field coupled with at least one display means, device wherein said evaluation means comprise at least one wound coil able to be positioned so that the lines of the magnetic field pass through it, said wound coil linked to evaluation electronics powered by said wound coil itself. | 04-09-2009 |
| 20090256560 | Sensor system embedded in metal - A sensor system, which can be embedded in a metal bed or metal face and has a good performance, has been demanded. A sensor system arranged in the following manner fulfills the above-mentioned demand. When the sensor system employs a square bracket shaped magnetic substance core, a magnetic path is formed and a strong magnetic field vertical to the metal face is obtained, even if the square bracket shaped magnetic substance core is embedded in a concave of the metal bed. A strong vertical magnetic field is obtained in the center portion of a combined magnetic substance cores even by using a surface current on the metal face. | 10-15-2009 |
| 20090315553 | Axially Symmetric Vertical Magnetic Field Component Exciting Sensor System - The present invention provides an axially symmetric vertical magnetic field component sensor system capable of intensifying vertical magnetic field components. The sensor system comprises an axially symmetrical magnetic substance comprising a circular, oval or polygonal shaped flat disk and a protrusion formed on a center of the flat disk. The sensor system is used for a response system having an IC wound by a coil which generates signals and the sensor system is mounted on a metal surface or buried in a hollow formed on the metal surface. | 12-24-2009 |
| 20100039107 | MAGNETIC CARRIER MANIPULATION AND DETECTION USING A NANOMETER SCALE TRANSFORMER - A nanometer scale transformer configured to manipulate and detect a magnetic carrier is provided. | 02-18-2010 |
| 20100156406 | MAGNETIC DETECTION ELEMENT AND DETECTING METHOD - A magnetic detection element with increased detection intensity of a magnetic field by a inspection target substance is provided. A magnetic substance to which an alternating magnetic field is applied, and a detecting coil for detecting a magnetic field received by the magnetic substance are included. A surface of the magnetic substance in the detecting coil is divided into two that are a first region and a second region in a longitudinal direction of the detecting coil, and an affinity with the detection object substance in at least a part of the first region differs from that of the second region. | 06-24-2010 |
| 20100207624 | Detector Systems - A detection system comprising a plurality of magnetic field generators and a plurality of magnetic field detectors located adjacent to a detection area, and a control system arranged to generate magnetic field using the generators, and, for each of the generators, to make measurements of the magnetic field generated using each of the detectors, and processing means arranged to process the measurements to generate a data set characterising the detection area. | 08-19-2010 |
| 20100219823 | OPERATING METHOD AND COIL ARRANGEMENT FOR A MAGNETIC SENSOR FOR DETECTING METALLIC OBJECTS IN A SUBGRADE - A coil arrangement for a magnetic sensor for detecting metallic objects in a subgrade, in particular structures made of concrete, brick, and wood, as well as a method for energizing and reading out this coil arrangement, is disclosed. The coil arrangement includes one or preferably two stacked outer main coils via which a perpendicular magnetomotive force of the subgrade is effected. Provided within the outer main coil(s) is, on the one hand, a quartet of a total of two pairs of parallel coils lying symmetrical to the axis of the main coil(s), via which a magnetomotive force penetration of the subgrade in two directions parallel to the subgrade surface is possible. To further improve the accuracy and reliability of localizing objects and estimating depth of cover, two pairs of smaller orthogonal coils each opposite from one another and also arranged symmetrically to the axis of the main coil(s) are provided. | 09-02-2010 |
| 20100289489 | MAGNETIC BRIDGE FOR SENSOR IN WHICH MAGNETIC FLUID IS USED, CURRENT SENSOR IN WHICH MAGNETIC BRIDGE IS USED, AND MAGNETIC FIELD SENSOR - The present invention provides a sensor in which an offset problem of the sensor can be solved, that is, a current sensor, a magnetic field sensor, a magnetic bridge that is formed by a magnetic fluid suitably used in the current sensor and the magnetic field sensor, and a magnetic path casing that forms the magnetic fluid whose form is unfixed into a required morphologic magnetic bridge. The magnetic bridge includes a magnetic circuit in which two separated circular magnetic paths mr | 11-18-2010 |
| 20100315080 | METAL DETECTOR - A metal detector is disclosed which comprises a transmitter arranged to generate a primary magnetic field, and at least one sensor arranged so as to sense a secondary magnetic field vector present after the transmitter has been turned off by measuring 3 substantially mutually orthogonal components of the secondary magnetic field. Each sensor is of a type arranged to sense a time-varying magnetic field. | 12-16-2010 |
| 20100321015 | MINIATURE COILS ON CORE WITH PRINTED CIRCUIT - A method for producing a coil assembly includes overlaying printed circuit traces on a core. The traces include terminals for coupling to conductive connections on a base on which the coil assembly is to be mounted. Two or more wires are wrapped around the core so as to define two or more coils, wrapped in different, respective directions. The ends of the wires are coupled to the printed circuit traces, so as to connect the wires through the traces to the terminals. | 12-23-2010 |
| 20110006764 | SYSTEM AND METHOD FOR MEASURING A TIME-VARYING MAGNETIC FIELD AND METHOD FOR PRODUCTION OF A HYDROCARBON FLUID - In accordance with the present disclosure, a system and a method are disclosed for measuring a time varying magnetic field. In one aspect, a system comprises a plurality of induction coils arranged to measure the time varying magnetic field using at least one voltage induced in at least one of the induction coils in the plurality of induction coils, a plurality of snubber circuits connected to the plurality of induction coils, each of the snubber circuits of the plurality of snubber circuits arranged to suppress a resonance of a respective one of the induction coils of the plurality of induction coils, and a summing circuit connected to each of the snubber circuits of the plurality of snubber circuits, the summing circuit arranged to sum voltages induced in each of the induction coils in the plurality of induction coils. | 01-13-2011 |
| 20110199081 | BARKHAUSEN NOISE INSPECTION APPARATUS AND INSPECTION METHOD - A Barkhausen noise inspection device of the present invention includes a detecting head ( | 08-18-2011 |
| 20120206138 | METHOD FOR OPERATING A METAL DETECTION SYSTEM AND METAL DETECTION SYSTEM - A method for operating a metal detection system that comprises a balanced coil system. One embodiment of the method comprises: determining the phase and magnitude of related signals at least for a first metal contaminant for at least two transmitter frequencies and for at least two particle sizes of the first metal contaminant; determining the phase and magnitude of the related signal for a specific product for the at least two transmitter frequencies; comparing information established at least for the first metal contaminant and the information established for the product; determining a transmitter frequency with which signal components of smallest sized particles of the at least first metal contaminant differ sufficiently or most in phase and amplitude from the phase and amplitude of the product signal; and selecting the transmitter frequency for measuring the product. A metal detection apparatus adapted to operate according to an exemplary method is also provided. | 08-16-2012 |
| 20120212221 | Dipole Locator Using Multiple Measurement Points - A receiver and tracking system for identifying a location of a magnetic field source. In a preferred embodiment a plurality of tri-axial antennas are positioned at three distinct points on a receiver frame. Each antenna detects a magnetic field from a source and a processor is used to determine a location of the source relative to the frame using the antenna signals. Each tri-axial antenna comprises three windings in each of three channels defined by a support structure. The windings each define an aperture area. The windings have substantially identical aperture areas and have a common center point. The receiver may to display to the operator the relative location of the field source or may direct the operator to a spot directly above the field source. | 08-23-2012 |
| 20130021029 | SENSOR - A sensor comprises a housing which defines a measuring side and a connection side, a coil ( | 01-24-2013 |
| 20130154634 | MAGNETIC SENSOR DEVICE - A magnetic sensor device may include a magnetic sensor element structured to detect a magnetic property of a medium. The magnetic sensor element may include a sensor core having a body part and one or a plurality of protruded part(s) which is protruded from the body part, an exciting coil which is wound around the sensor core, and a detection coil which is wound around the sensor core. The body part and the protruded part of the sensor core forms an open magnetic path, and a stepped part is formed on a side face of at least one piece of the protruded part. | 06-20-2013 |
| 20130176023 | DETECTING DEVICE, DETECTING SYSTEM, POWER TRANSMITTING DEVICE, NONCONTACT POWER TRANSMISSION SYSTEM, AND DETECTING METHOD - A detecting device includes a reading coil configured to read a magnetic flux generated by a detecting coil for detecting a magnetic field of an electromagnetic wave output from an exciting coil according to the magnetic field. The detecting device further includes a Q-value measuring section configured to measure a Q-value of the detecting coil on a basis of a temporal transition of oscillation of a voltage obtained in the reading coil according to the magnetic flux generated by the detecting coil. | 07-11-2013 |
| 20130207651 | FLUXGATE SENSOR - A fluxgate sensor has a driver coil, a signal coil, and a magnetic core that magnetically couples the driver coil and the signal coil. A magnetic field detector that can be positioned in a remote area is provided. The magnetic field detector is connected to a magnetic field generator positioned in the vicinity of the magnetic core by a transmission line, where the magnetic field of the magnetic field generator is superposed with the driver field. | 08-15-2013 |
| 20130221959 | ELECTRICAL CURRENT SENSOR AND METHOD OF MANUFACTURING THE SAME - An electrical current sensor includes a first laminated body having a magnetic detection element disposed over a first substrate, a protective film formed over the first substrate and the magnetic detection element, and a coil formed over the protective film, and a second laminated body having a shield layer formed over a second substrate and which is formed by bonding the first laminated body and the second laminated body to each other with an adhesion layer interposed therebetween such that the magnetic detection element and the shield layer face each other. | 08-29-2013 |
| 20130342197 | MAGNETIC-FIELD DETECTING DEVICE - A magnetic-field detecting device includes a pair of magneto-sensors including respective magnetism sensing portions that sense magnetism, and respective coils sensing changes of magnetic fluxes in the magnetism sensing portions, and an elongate connecting member cooperating with the magnetism sensing portions to constitute a magnetic circuit. A magnetism sensing direction of the magnetism sensing portions coincides with a longitudinal direction of the connecting member to an extent that permits the coils to equally sense a magnetic field applied to the coils the connecting member being formed of a magnetic material having a relative magnetic permeability of at least 100, a magnetic material having a relative magnetic permeability which is at least 1/100 of that of a magnetic material of the magnetism sensing portions, or the same magnetic material as the magnetism sensing portions the magnetic-field sensor measuring the magnetism on the basis of a difference between outputs of the coils. | 12-26-2013 |
| 20140028309 | METAL DETECTOR - A chute assembly ( | 01-30-2014 |
| 20140077799 | INTEGRATED MAGNETIC SPECTROMETER FOR MULTIPLEXED BIOSENSING - A magnetic spectrometer is integrated in a semiconductor substrate and provides high sensitivity without using an external magnet field. The spectrometer includes one or more highly stable on-chip oscillator and LC resonator. A current caused to pass through the inductor generates a magnetic field and polarizes the nanoparticles placed in its proximity, thereby changing the effective inductance of the inductor, and in turn, modifying the oscillation frequency of the LC resonator. The shift in the oscillation frequency is used to characterize the nanoparticles and measure their magnetic susceptibility frequency profile. The spectrometer operates at multiple frequencies over a diverse range without using a reference sensor thereby effectively increasing its spatial multiplexing density. The magnetic spectrometer uses the relationship between the sizes of the particles and the resonance frequency F | 03-20-2014 |
| 20140097836 | DIFFERENTIAL TRANSFORMER TYPE MAGNETIC SENSOR AND IMAGE FORMING APPARATUS - A differential transformer type magnetic sensor includes a first coil layer, a second coil layer, and an insulating layer formed between the first coil layer and the second coil layer. The first coil layer includes a detection coil and a first drive coil. The second coil layer includes a reference coil and a second drive coil. The first drive coil and the second drive coil are electrically connected together so that a direction of drive current flowing in the first drive coil is the same as a direction of drive current flowing in the second drive coil. The detection coil and the reference coil are electrically connected together so that a direction of induced current flowing in the detection coil is reverse to a direction of induced current flowing in the reference coil. | 04-10-2014 |
| 20140103922 | DIFFERENTIAL TRANSFORMER TYPE MAGNETIC SENSOR AND IMAGE FORMING APPARATUS - A differential transformer type magnetic sensor includes a drive coil, a reference coil, and a detection coil. These coils are formed by repeating a linear pattern that is formed on the first surface, penetrates the board, is formed on the second surface, penetrates the board, and returns to the first surface. The reference coil is disposed at a side of one end of the drive coil, and the detection coil is disposed at a side of the other end of the drive coil. Induced current flows to each of the reference coil and the detection coil due to magnetic flux generated as drive current flows to the drive coil. The reference coil and the detection coil are electrically connected so that a direction of the induced current flowing along the reference coil and a direction of the induced current flowing along the detection coil are opposite to each other. | 04-17-2014 |
| 20150070010 | MAGNETIC ELEMENT CONTROL DEVICE, MAGNETIC DEVICE CONTROLMETHOD, AND MAGNETIC DETECTING DEVICE - A magnetic element control device controls a magnetic element during detection of an intensity of a stationary magnetic field by a time-resolved magnetic balance system where the magnetic field is applied to a flux-gate magnetic element that is constituted of an excitation coil and a detecting coil. The magnetic element control device includes: an excitation signal generator; an excitation signal adjuster; a detection signal comparator; a feedback signal converter; a feedback signal adjuster; and a data signal converter. The excitation signal adjuster superimposes a feedback signal on an alternating voltage signal and thereby generates an excitation signal, and applies the generated excitation signal to the excitation coil. | 03-12-2015 |
| 20150077101 | MAGNETIC ELEMENT CONTROL DEVICE, MAGNETIC ELEMENT CONTROL METHOD AND MAGNETIC DETECTION DEVICE - A magnetic element control device of the present invention includes an excitation signal generation unit that generates an alternating signal, a feedback signal conversion unit that converts a time width between detection signals of a positive voltage and a negative voltage into voltage information, an adjustment signal generation unit that generates an offset signal that cancels an offset component which is superimposed on a data signal indicating a magnetic field intensity, and an excitation signal adjustment unit that generates an alternating current, a feedback current, and an offset current from the alternating signal, the feedback signal, and the offset signal, respectively, superimposes the feedback current and the offset current on the alternating current, and generates an excitation current which is applied to an exciting coil. | 03-19-2015 |
| 20160025821 | GUIDANCE AND ALIGNMENT SYSTEM AND METHODS FOR ELECTRIC VEHICLE WIRELESS CHARGING SYSTEMS - Guidance and alignment systems are disclosed for wireless charging systems to assist in aligning the transmitter and receiver inductive power transfer (IPT) couplers. These systems guide positioning and alignment to provide sufficient coupling between the transmitter and receiver IPT couplers. Exemplary systems provide a magnetic field sensor, magnetic field generator, and magnetic vectoring to determine a position of an electric vehicle or a wireless charging base. In a magnetic vectoring system, an alignment system comprising at least three coils (or similar circuits) on a magnetically permeable substrate receives a positioning magnetic field including modulated information signals and processes the received signal to generate an output for determining a position of the positioning magnetic field source relative to the magnetic field sensor position. The alignment system may further comprise a similar structure that generates the positioning magnetic field, that may include modulated information signals, based on input signals. | 01-28-2016 |
| 20160116551 | MAGNETO-IMPEDANCE SENSOR ELEMENT WITH ELECTROMAGNETIC COIL AND MAGNETO-IMPEDANCE SENSOR WITH ELECTROMAGNETIC COIL - A technique is provided which reduces the coil pitch and increases the number of coil turns in an MI element and allows for high sensitivity and miniaturization. The MI element is configured such that a magnetic wire and a coil wound around the magnetic wire are disposed on an electrode wiring substrate. When manufacturing the coil, a three-layer structure of the coil and thin film coil strips formed by a vapor deposition process are focused on thereby to allow the coil pitch to be 14 micrometers or less. The three-layer structure comprises coil lower portions of a recessed shape, coil upper portions of a protruding shape, and through-hole portions that connect the coil lower portions with the coil upper portions. | 04-28-2016 |
| 20160139213 | Variable Permeability Magnetometer Systems and Methods for Aerospace Applications - A magnetometer configured to measure low field strength magnetic fields is provided. Certain embodiments of the magnetometer include a cylindrical coil assembly having a variable permeability core and terminals disposed at both ends. A current source circuit may be operably connected to the terminals and configured to apply a voltage controlled current across the terminals. A voltage readout circuit may be operably connected to the terminals and configured to measure a voltage across the terminals due to the applied current from the current source. An inductance of the coil assembly directly varies as an ambient magnetic field strength varies a permeability of the variable permeability core, and a voltage across the terminals varies directly with the inductance such that the measured voltage across the terminals is a direct measure of the ambient magnetic field strength. | 05-19-2016 |
